/* * Copyright (C) 2010 Nokia Corporation and/or its subsidiary(-ies). * Copyright (C) 1999 Lars Knoll (knoll@kde.org) * (C) 1999 Antti Koivisto (koivisto@kde.org) * (C) 2001 Dirk Mueller (mueller@kde.org) * Copyright (C) 2004, 2005, 2006, 2007, 2009, 2010 Apple Inc. All rights reserved. * (C) 2006 Alexey Proskuryakov (ap@nypop.com) * Copyright (C) 2010 Google Inc. All rights reserved. * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Library General Public * License as published by the Free Software Foundation; either * version 2 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Library General Public License for more details. * * You should have received a copy of the GNU Library General Public License * along with this library; see the file COPYING.LIB. If not, write to * the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, * Boston, MA 02110-1301, USA. * */ #include "config.h" #include "HTMLSelectElement.h" #include "AXObjectCache.h" #include "Attribute.h" #include "EventNames.h" #include "HTMLNames.h" #include "HTMLOptionElement.h" #include "HTMLOptionsCollection.h" #include "RenderListBox.h" #include "RenderMenuList.h" #include "ScriptEventListener.h" using namespace std; namespace WebCore { using namespace HTMLNames; // Upper limit agreed upon with representatives of Opera and Mozilla. static const unsigned maxSelectItems = 10000; HTMLSelectElement::HTMLSelectElement(const QualifiedName& tagName, Document* document, HTMLFormElement* form) : HTMLFormControlElementWithState(tagName, document, form) { ASSERT(hasTagName(selectTag)); } PassRefPtr<HTMLSelectElement> HTMLSelectElement::create(const QualifiedName& tagName, Document* document, HTMLFormElement* form) { ASSERT(tagName.matches(selectTag)); return adoptRef(new HTMLSelectElement(tagName, document, form)); } void HTMLSelectElement::recalcStyle(StyleChange change) { HTMLFormControlElementWithState::recalcStyle(change); } const AtomicString& HTMLSelectElement::formControlType() const { DEFINE_STATIC_LOCAL(const AtomicString, selectMultiple, ("select-multiple")); DEFINE_STATIC_LOCAL(const AtomicString, selectOne, ("select-one")); return m_data.multiple() ? selectMultiple : selectOne; } int HTMLSelectElement::selectedIndex() const { return SelectElement::selectedIndex(m_data, this); } void HTMLSelectElement::deselectItems(HTMLOptionElement* excludeElement) { SelectElement::deselectItems(m_data, this, excludeElement); setNeedsValidityCheck(); } void HTMLSelectElement::setSelectedIndex(int optionIndex, bool deselect) { SelectElement::setSelectedIndex(m_data, this, optionIndex, deselect, false, false); setNeedsValidityCheck(); } void HTMLSelectElement::setSelectedIndexByUser(int optionIndex, bool deselect, bool fireOnChangeNow, bool allowMultipleSelection) { // List box selects can fire onchange events through user interaction, such as // mousedown events. This allows that same behavior programmatically. if (!m_data.usesMenuList()) { updateSelectedState(m_data, this, optionIndex, allowMultipleSelection, false); setNeedsValidityCheck(); if (fireOnChangeNow) listBoxOnChange(); return; } // Bail out if this index is already the selected one, to avoid running unnecessary JavaScript that can mess up // autofill, when there is no actual change (see https://bugs.webkit.org/show_bug.cgi?id=35256 and rdar://7467917 ). // Perhaps this logic could be moved into SelectElement, but some callers of SelectElement::setSelectedIndex() // seem to expect it to fire its change event even when the index was already selected. if (optionIndex == selectedIndex()) return; SelectElement::setSelectedIndex(m_data, this, optionIndex, deselect, fireOnChangeNow, true); setNeedsValidityCheck(); } bool HTMLSelectElement::hasPlaceholderLabelOption() const { // The select element has no placeholder label option if it has an attribute "multiple" specified or a display size of non-1. // // The condition "size() > 1" is actually not compliant with the HTML5 spec as of Dec 3, 2010. "size() != 1" is correct. // Using "size() > 1" here because size() may be 0 in WebKit. // See the discussion at https://bugs.webkit.org/show_bug.cgi?id=43887 // // "0 size()" happens when an attribute "size" is absent or an invalid size attribute is specified. // In this case, the display size should be assumed as the default. // The default display size is 1 for non-multiple select elements, and 4 for multiple select elements. // // Finally, if size() == 0 and non-multiple, the display size can be assumed as 1. if (multiple() || size() > 1) return false; int listIndex = optionToListIndex(0); ASSERT(listIndex >= 0); if (listIndex < 0) return false; HTMLOptionElement* option = static_cast<HTMLOptionElement*>(listItems()[listIndex]); return !option->disabled() && !listIndex && option->value().isEmpty(); } bool HTMLSelectElement::valueMissing() const { if (!isRequiredFormControl()) return false; int firstSelectionIndex = selectedIndex(); // If a non-placeholer label option is selected (firstSelectionIndex > 0), it's not value-missing. return firstSelectionIndex < 0 || (!firstSelectionIndex && hasPlaceholderLabelOption()); } void HTMLSelectElement::listBoxSelectItem(int listIndex, bool allowMultiplySelections, bool shift, bool fireOnChangeNow) { if (!multiple()) setSelectedIndexByUser(listToOptionIndex(listIndex), true, fireOnChangeNow); else { updateSelectedState(m_data, this, listIndex, allowMultiplySelections, shift); setNeedsValidityCheck(); if (fireOnChangeNow) listBoxOnChange(); } } int HTMLSelectElement::activeSelectionStartListIndex() const { if (m_data.activeSelectionAnchorIndex() >= 0) return m_data.activeSelectionAnchorIndex(); return optionToListIndex(selectedIndex()); } int HTMLSelectElement::activeSelectionEndListIndex() const { if (m_data.activeSelectionEndIndex() >= 0) return m_data.activeSelectionEndIndex(); return SelectElement::lastSelectedListIndex(m_data, this); } unsigned HTMLSelectElement::length() const { return SelectElement::optionCount(m_data, this); } void HTMLSelectElement::add(HTMLElement* element, HTMLElement* before, ExceptionCode& ec) { RefPtr<HTMLElement> protectNewChild(element); // make sure the element is ref'd and deref'd so we don't leak it if (!element || !(element->hasLocalName(optionTag) || element->hasLocalName(hrTag))) return; insertBefore(element, before, ec); setNeedsValidityCheck(); } void HTMLSelectElement::remove(int optionIndex) { int listIndex = optionToListIndex(optionIndex); if (listIndex < 0) return; ExceptionCode ec; listItems()[listIndex]->remove(ec); } void HTMLSelectElement::remove(HTMLOptionElement* option) { if (option->ownerSelectElement() != this) return; ExceptionCode ec; option->remove(ec); } String HTMLSelectElement::value() const { const Vector<Element*>& items = listItems(); for (unsigned i = 0; i < items.size(); i++) { if (items[i]->hasLocalName(optionTag) && static_cast<HTMLOptionElement*>(items[i])->selected()) return static_cast<HTMLOptionElement*>(items[i])->value(); } return ""; } void HTMLSelectElement::setValue(const String &value) { if (value.isNull()) return; // find the option with value() matching the given parameter // and make it the current selection. const Vector<Element*>& items = listItems(); unsigned optionIndex = 0; for (unsigned i = 0; i < items.size(); i++) { if (items[i]->hasLocalName(optionTag)) { if (static_cast<HTMLOptionElement*>(items[i])->value() == value) { setSelectedIndex(optionIndex, true); return; } optionIndex++; } } } bool HTMLSelectElement::saveFormControlState(String& value) const { return SelectElement::saveFormControlState(m_data, this, value); } void HTMLSelectElement::restoreFormControlState(const String& state) { SelectElement::restoreFormControlState(m_data, this, state); setNeedsValidityCheck(); } void HTMLSelectElement::parseMappedAttribute(Attribute* attr) { bool oldUsesMenuList = m_data.usesMenuList(); if (attr->name() == sizeAttr) { int oldSize = m_data.size(); // Set the attribute value to a number. // This is important since the style rules for this attribute can determine the appearance property. int size = attr->value().toInt(); String attrSize = String::number(size); if (attrSize != attr->value()) attr->setValue(attrSize); size = max(size, 1); // Ensure that we've determined selectedness of the items at least once prior to changing the size. if (oldSize != size) recalcListItemsIfNeeded(); m_data.setSize(size); setNeedsValidityCheck(); if ((oldUsesMenuList != m_data.usesMenuList() || (!oldUsesMenuList && m_data.size() != oldSize)) && attached()) { detach(); attach(); setRecalcListItems(); } } else if (attr->name() == multipleAttr) SelectElement::parseMultipleAttribute(m_data, this, attr); else if (attr->name() == accesskeyAttr) { // FIXME: ignore for the moment } else if (attr->name() == alignAttr) { // Don't map 'align' attribute. This matches what Firefox, Opera and IE do. // See http://bugs.webkit.org/show_bug.cgi?id=12072 } else if (attr->name() == onchangeAttr) { setAttributeEventListener(eventNames().changeEvent, createAttributeEventListener(this, attr)); } else HTMLFormControlElementWithState::parseMappedAttribute(attr); } bool HTMLSelectElement::isKeyboardFocusable(KeyboardEvent* event) const { if (renderer()) return isFocusable(); return HTMLFormControlElementWithState::isKeyboardFocusable(event); } bool HTMLSelectElement::isMouseFocusable() const { if (renderer()) return isFocusable(); return HTMLFormControlElementWithState::isMouseFocusable(); } bool HTMLSelectElement::canSelectAll() const { return !m_data.usesMenuList(); } void HTMLSelectElement::selectAll() { SelectElement::selectAll(m_data, this); setNeedsValidityCheck(); } RenderObject* HTMLSelectElement::createRenderer(RenderArena* arena, RenderStyle*) { if (m_data.usesMenuList()) return new (arena) RenderMenuList(this); return new (arena) RenderListBox(this); } bool HTMLSelectElement::appendFormData(FormDataList& list, bool) { return SelectElement::appendFormData(m_data, this, list); } int HTMLSelectElement::optionToListIndex(int optionIndex) const { return SelectElement::optionToListIndex(m_data, this, optionIndex); } int HTMLSelectElement::listToOptionIndex(int listIndex) const { return SelectElement::listToOptionIndex(m_data, this, listIndex); } PassRefPtr<HTMLOptionsCollection> HTMLSelectElement::options() { return HTMLOptionsCollection::create(this); } void HTMLSelectElement::recalcListItems(bool updateSelectedStates) const { SelectElement::recalcListItems(const_cast<SelectElementData&>(m_data), this, updateSelectedStates); } void HTMLSelectElement::recalcListItemsIfNeeded() { if (m_data.shouldRecalcListItems()) recalcListItems(); } void HTMLSelectElement::childrenChanged(bool changedByParser, Node* beforeChange, Node* afterChange, int childCountDelta) { setRecalcListItems(); setNeedsValidityCheck(); HTMLFormControlElementWithState::childrenChanged(changedByParser, beforeChange, afterChange, childCountDelta); if (AXObjectCache::accessibilityEnabled() && renderer()) renderer()->document()->axObjectCache()->childrenChanged(renderer()); } void HTMLSelectElement::setRecalcListItems() { SelectElement::setRecalcListItems(m_data, this); if (!inDocument()) m_collectionInfo.reset(); } void HTMLSelectElement::reset() { SelectElement::reset(m_data, this); setNeedsValidityCheck(); } void HTMLSelectElement::dispatchFocusEvent() { SelectElement::dispatchFocusEvent(m_data, this); HTMLFormControlElementWithState::dispatchFocusEvent(); } void HTMLSelectElement::dispatchBlurEvent() { SelectElement::dispatchBlurEvent(m_data, this); HTMLFormControlElementWithState::dispatchBlurEvent(); } void HTMLSelectElement::defaultEventHandler(Event* event) { SelectElement::defaultEventHandler(m_data, this, event, form()); if (event->defaultHandled()) return; HTMLFormControlElementWithState::defaultEventHandler(event); } void HTMLSelectElement::setActiveSelectionAnchorIndex(int index) { SelectElement::setActiveSelectionAnchorIndex(m_data, this, index); } void HTMLSelectElement::setActiveSelectionEndIndex(int index) { SelectElement::setActiveSelectionEndIndex(m_data, index); } void HTMLSelectElement::updateListBoxSelection(bool deselectOtherOptions) { SelectElement::updateListBoxSelection(m_data, this, deselectOtherOptions); setNeedsValidityCheck(); } void HTMLSelectElement::menuListOnChange() { SelectElement::menuListOnChange(m_data, this); } void HTMLSelectElement::listBoxOnChange() { SelectElement::listBoxOnChange(m_data, this); } void HTMLSelectElement::saveLastSelection() { SelectElement::saveLastSelection(m_data, this); } void HTMLSelectElement::accessKeyAction(bool sendToAnyElement) { focus(); dispatchSimulatedClick(0, sendToAnyElement); } void HTMLSelectElement::accessKeySetSelectedIndex(int index) { SelectElement::accessKeySetSelectedIndex(m_data, this, index); } void HTMLSelectElement::setMultiple(bool multiple) { int oldSelectedIndex = selectedIndex(); setAttribute(multipleAttr, multiple ? "" : 0); // Restore selectedIndex after changing the multiple flag to preserve // selection as single-line and multi-line has different defaults. setSelectedIndex(oldSelectedIndex); } void HTMLSelectElement::setSize(int size) { setAttribute(sizeAttr, String::number(size)); } Node* HTMLSelectElement::namedItem(const AtomicString& name) { return options()->namedItem(name); } Node* HTMLSelectElement::item(unsigned index) { return options()->item(index); } void HTMLSelectElement::setOption(unsigned index, HTMLOptionElement* option, ExceptionCode& ec) { ec = 0; if (index > maxSelectItems - 1) index = maxSelectItems - 1; int diff = index - length(); HTMLElement* before = 0; // out of array bounds ? first insert empty dummies if (diff > 0) { setLength(index, ec); // replace an existing entry ? } else if (diff < 0) { before = toHTMLElement(options()->item(index+1)); remove(index); } // finally add the new element if (!ec) { add(option, before, ec); if (diff >= 0 && option->selected()) setSelectedIndex(index, !m_data.multiple()); } } void HTMLSelectElement::setLength(unsigned newLen, ExceptionCode& ec) { ec = 0; if (newLen > maxSelectItems) newLen = maxSelectItems; int diff = length() - newLen; if (diff < 0) { // add dummy elements do { RefPtr<Element> option = document()->createElement(optionTag, false); ASSERT(option); add(toHTMLElement(option.get()), 0, ec); if (ec) break; } while (++diff); } else { const Vector<Element*>& items = listItems(); // Removing children fires mutation events, which might mutate the DOM further, so we first copy out a list // of elements that we intend to remove then attempt to remove them one at a time. Vector<RefPtr<Element> > itemsToRemove; size_t optionIndex = 0; for (size_t i = 0; i < items.size(); ++i) { Element* item = items[i]; if (item->hasLocalName(optionTag) && optionIndex++ >= newLen) { ASSERT(item->parentNode()); itemsToRemove.append(item); } } for (size_t i = 0; i < itemsToRemove.size(); ++i) { Element* item = itemsToRemove[i].get(); if (item->parentNode()) { item->parentNode()->removeChild(item, ec); } } } setNeedsValidityCheck(); } void HTMLSelectElement::scrollToSelection() { SelectElement::scrollToSelection(m_data, this); } void HTMLSelectElement::insertedIntoTree(bool deep) { SelectElement::insertedIntoTree(m_data, this); HTMLFormControlElementWithState::insertedIntoTree(deep); } bool HTMLSelectElement::isRequiredFormControl() const { return required(); } } // namespace